On GCD(N(an),N(bn))

Abstract

There has been interest during the last decade in properties of the sequence gcd(an-1,bn-1), n=1,2,3,..., where a,b are fixed (multiplicatively independent) elements in either the rational integers, the polynomials in one variable over the complex numbers, or the polynomials in one variable over a finite field. In the case of the rational integers, Bugeaud, Corvaja and Zannier have obtained an upper bound exp(ε n) for any given ε >0 and all large n, and demonstrate its approximate sharpness by extracting from a paper of Adleman, Pomerance, and Rumely a lower bound ((clog nloglog n)) for infinitely many n, where c is an absolute constant. The upper bound generalizes immediately to gcd(N(an), N(bn)) for any positive integer N, where N(x)$ is the Nth cyclotomic polynomial, the preceding being the case N=1. The lower bound has been generalized in the first author's Ph.D. thesis to N=2. In this paper we generalize the lower bound for arbitrary N but under GRH (the generalized Riemann Hypothesis). The analogue of the lower bound result for gcd(an-1,bn-1) over Fq[T] was proved by Silverman; we prove a corresponding generalization (without GRH).